SI5504DC-T1 Vishay/Siliconix, SI5504DC-T1 Datasheet - Page 10
SI5504DC-T1
Manufacturer Part Number
SI5504DC-T1
Description
MOSFET 30V 3.9/2.8A
Manufacturer
Vishay/Siliconix
Datasheet
1.SI5504DC-T1.pdf
(12 pages)
Specifications of SI5504DC-T1
Product Category
MOSFET
Transistor Polarity
N and P-Channel
Drain-source Breakdown Voltage
30 V
Gate-source Breakdown Voltage
+/- 20 V
Continuous Drain Current
3.9 A, 2.8 A
Resistance Drain-source Rds (on)
85 mOhms, 165 mOhms
Configuration
Dual
Maximum Operating Temperature
+ 150 C
Mounting Style
SMD/SMT
Package / Case
1206-8 ChipFET
Fall Time
12 ns at N Channel, 11 ns at P Channel
Minimum Operating Temperature
- 55 C
Power Dissipation
1.1 W
Rise Time
12 ns at N Channel, 11 ns at P Channel
Factory Pack Quantity
3000
Typical Turn-off Delay Time
12 ns at N Channel, 14 ns at P Channel
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
SI5504DC-T1
Manufacturer:
VISHAY/威世
Quantity:
20 000
Part Number:
SI5504DC-T1-E3
Manufacturer:
VISHAY/威世
Quantity:
20 000
AN812
Vishay Siliconix
THERMAL PERFORMANCE
Junction-to-Foot Thermal Resistance (the Package
Performance)
Thermal performance for the 1206-8 ChipFET measured as
junction-to-foot thermal resistance is 30_C/W typical, 40_C/W
maximum for the dual device. The “foot” is the drain lead of the
device as it connects with the body. This is identical to the dual
SO-8 package R
shortening the leads to the point where they become only a
small part of the total footprint area.
Junction-to-Ambient Thermal Resistance
(dependent on pcb size)
The typical R
90_C/W steady state, identical to the SO-8. Maximum ratings
are 110_C/W for both the 1206-8 and the SO-8. Both packages
have comparable thermal performance on the 1” square pcb
footprint with the 1206-8 dual package having a quarter of the
body area, a significant factor when considering board area.
Testing
To aid comparison further, Figure 4 illustrates ChipFET 1206-8
dual thermal performance on two different board sizes and
three different pad patterns.The results display the thermal
performance out to steady state and produce a graphic
account on how an increased copper pad area for the drain
connections can enhance thermal performance. The
measured steady state values of R
ChipFET are :
www.vishay.com
2
1) Minimum recommended pad pattern (see
Figure 2) on the evaluation board size of
0.5 in x 0.6 in.
2) The evaluation board with the pad pattern
described on Figure 3.
3) Industry standard 1” square pcb with
maximum copper both sides.
Front of Board
Qja
ChipFETr
Qjf
for the dual-channel 1206-8 ChipFET is
performance, a feat made possible by
Qja
for the Dual 1206-8
185_C/W
128_C/W
90_C/W
FIGURE 3.
The results show that a major reduction can be made in the
thermal resistance by increasing the copper drain area. In this
example, a 57_C/W reduction was achieved without having to
increase the size of the board. If increasing board size is an
option, a further 38_C/W reduction was obtained by
maximizing the copper from the drain on the larger 1” square
PCB.
SUMMARY
The thermal results for the dual-channel 1206-8 ChipFET
package display identical power dissipation performance to
the SO-8 with a footprint reduction of 80%. Careful design of
the package has allowed for this performance to be achieved.
The short leads allow the die size to be maximized and thermal
resistance to be reduced within the confines of the TSOP-6
body size.
ASSOCIATED DOCUMENT
1206-8 ChipFET Single Thermal performance, AN811,
(http://www.vishay.com/doc?71126).
Back of Board
200
160
120
80
40
0
10
-5
10
FIGURE 4.
-4
10
vishay.com
-3
10
-2
Time (Secs)
Dual 1206-8 ChipFET
10
-1
Min. Footprint
1
1” Square PCB
Document Number: 71127
10
100
Dual EVB
12-Dec-03
1000
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